| Patent application number | Description | Published |
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| 20080219069 | DEVICE THRESHOLD CALIBRATION THROUGH STATE DEPENDENT BURNIN - Disclosed are embodiments of a method for reducing and/or eliminating mismatch. The embodiments sample the bias of one or more circuit sub-components that require a balanced state (e.g., sampling the bias of the cross-coupled transistors in each memory cell and/or sense amp in a memory array) before chip burn-in, by initiating a burn-in process during which an individually selected state is applied to each of the devices in the circuit. This fatigues the devices away from their preferred states and towards a balanced state. The bias is periodically reassessed during the burn-in process to avoid over-correction. By using this method both memory cell and sense-amplifier mismatch can be reduced in memory arrays, resulting in smaller timing uncertainty and therefore faster memories. | 09-11-2008 |
| 20080265982 | METHOD OF IMPROVING FUSE STATE DETECTION AND YIELD IN SEMICONDUCTOR APPLICATIONS - Disclosed are embodiments of an apparatus incorporating a detection circuit adapted for determining the state of selected fuses and a programming circuit for blowing selected fuses on demand. Also, disclosed are embodiments of an associated method. The detection circuit comprises a plurality of fuses in identical signal and reference legs in order to increase the signal margin for detecting blown fuses and/or current sources configured to pass offset currents through the signal and reference legs in order to set the trip point for detecting blown fuses between the un-blown and the minimum blown resistances. Thus, the invention provides the flexibility of single-sided fuse state detection devices with even greater sensitivity than both single-sided and differential fuse state detection device. | 10-30-2008 |
| 20090080276 | Temperature Dependent Bias for Minimal Stand-by Power in CMOS Circuits - A circuit is disclosed which generates such a bias voltage that when this bias voltage is received by a large plurality of devices of a semiconductor chip, power consumption is reduced in the stand-by mode at any particular operating temperature. The disclosed circuit contains at least one monitor FET, which is kept in its off-state, and which has common properties with the large plurality of FET devices. The temperature dependent leakage current of the monitor FET is sensed, and used to generate the bias voltage in proportion to the leakage current. This bias voltage is received by the large plurality FET devices on their gate electrodes, or on their body terminals. | 03-26-2009 |
| 20090099828 | Device Threshold Calibration Through State Dependent Burnin - Disclosed are embodiments of a design structure for reducing and/or eliminating mismatch. The embodiments sample the bias of one or more circuit sub-components that require a balanced state (e.g., sampling the bias of the cross-coupled transistors in each memory cell and/or sense amp in a memory array) before chip burn-in, by initiating a burn-in process during which an individually selected state is applied to each of the devices in the circuit. This fatigues the devices away from their preferred states and towards a balanced state. The bias is periodically reassessed during the burn-in process to avoid over-correction. By using this method both memory cell and sense-amplifier mismatch can be reduced in memory arrays, resulting in smaller timing uncertainty and therefore faster memories. | 04-16-2009 |
| 20090129181 | SYSTEM AND METHOD FOR IMPLEMENTING ROW REDUNDANCY WITH REDUCED ACCESS TIME AND REDUCED DEVICE AREA - A system for implementing row redundancy in integrated circuit memory devices includes one or more main subarrays having word line, bit line and memory cell devices, each of the one or more main subarrays including a set of support circuitry associated therewith. A discrete, redundant subarray is associated with the main subarrays, and also includes a set of support circuitry associated therewith. A common global bit line is shared by the main subarrays and the redundant subarray, and redundancy steering control circuitry is associated with the main subarrays and the redundant subarray. The redundancy steering control circuitry is configured such that word line activation of the main subarrays and the redundant subarray is performed in parallel with address compare operations performed by the redundancy steering control circuitry. | 05-21-2009 |
| 20090129192 | DESIGN STRUCTURE FOR LOW OVERHEAD SWITCHED HEADER POWER SAVINGS APPARATUS - A design structure embodied in a machine readable medium used in a design process includes a tri-state power gating apparatus for reducing leakage current in a memory array. The apparatus includes a first distributed header device coupled to the memory array, the first distributed header device is configured for limiting leakage current through the memory array; and a header driver operatively coupled to the first distributed header device for enabling tri-state operation of the first distributed header device, wherein tri-state operation includes sleep mode, wake mode, and retention mode. | 05-21-2009 |
| 20090141538 | Voltage Controlled Static Random Access Memory - A static random access memory (SRAM) comprising a plurality of SRAM cells, a plurality of wordlines (WL | 06-04-2009 |
| 20090153228 | STRUCTURE FOR IMPROVING FUSE STATE DETECTION AND YIELD IN SEMICONDUCTOR APPLICATIONS - Disclosed is a design structure of an apparatus incorporating a detection circuit adapted for determining the state of selected fuses and a programming circuit for blowing selected fuses on demand. Also, disclosed are embodiments of an associated method. The detection circuit comprises a plurality of fuses in identical signal and reference legs in order to increase the signal margin for detecting blown fuses and/or current sources configured to pass offset currents through the signal and reference legs in order to set the trip point for detecting blown fuses between the un-blown and the minimum blown resistances. Thus, the invention provides the flexibility of single-sided fuse state detection devices with even greater sensitivity than both single-sided and differential fuse state detection device. | 06-18-2009 |
| 20090207650 | SYSTEM AND METHOD FOR INTEGRATING DYNAMIC LEAKAGE REDUCTION WITH WRITE-ASSISTED SRAM ARCHITECTURE - A system for integrating dynamic leakage reduction with a write-assisted SRAM architecture includes power line selection circuitry associated with each column of one or more SRAM sub arrays, controlled by a selection signal that selects the associated sub array for a read or write operation, and by a column write signal that selects one of the columns of the sub arrays. The power line selection circuitry locally converts a first voltage, corresponding to a cell supply voltage for a read operation, to a second lower voltage to be supplied to each cell selected for a write operation, as to facilitate a write function. The power line selection circuitry also locally converts the first voltage to a third voltage to be supplied to power lines in unselected sub arrays, the third voltage also being lower than the first voltage so as to facilitate dynamic leakage reduction. | 08-20-2009 |
| 20090235171 | APPARATUS AND METHOD FOR IMPLEMENTING WRITE ASSIST FOR STATIC RANDOM ACCESS MEMORY ARRAYS - An apparatus for implementing a write assist for a memory array includes a common discharge node configured to provide a discharge path for precharged write data lines and bit lines selected during a write operation of the memory array; negative boost circuitry configured to introduce a voltage lower than a nominal logic low supply voltage onto the common discharge node following the discharge of the common discharge node, write data lines and bit lines; and a clamping device coupled to the common discharge node, the clamping device configured to limit the magnitude of negative voltage applied to common discharge node by the negative boost circuitry so as to prevent activation of non-selected bit switches. | 09-17-2009 |
| 20100002495 | Column Selectable Self-Biasing Virtual Voltages for SRAM Write Assist - A static random access memory decoder circuit includes a first cell supply line coupled to provide a first column of memory cells a first cell supply voltage and a second cell supply line coupled to provide a first column of memory cells a first cell supply voltage. The decoder circuit further includes a write assist circuit having a first threshold transistor coupled to the first cell supply line and a second threshold transistor coupled to the second cell supply line. In response to a write assist signal, the write assist circuit connects one of the first and second cell supply lines selected by control circuitry to an associated one of the first and second threshold transistors, such that a cell supply voltage of the selected one of the first and second cell supply lines is reduced toward the threshold voltage of the threshold transistor. | 01-07-2010 |
| 20110085390 | WORD-LINE LEVEL SHIFT CIRCUIT - A dual word-line level shifter circuit and associated SRAM. A circuit is disclosed that includes a first transistor gated by a data input at the lower voltage, and a second transistor gated by a restore input at the higher voltage, wherein the first and second transistors are coupled along a series path to a source at the higher voltage; a control node along the series path; an output node coupled to the control node via a first pair of parallel transistors; and a feedback circuit having a second pair of parallel transistors and a feedback transistor, wherein the feedback transistor couples the second pair of parallel transistors to the control node and is gated by the output node. | 04-14-2011 |
| 20110090750 | SRAM DELAY CIRCUIT THAT TRACKS BITCELL CHARACTERISTICS - An SRAM delay circuit that tracks bitcell characteristics. A circuit is disclosed that includes an input node for receiving an input signal; a reference node for capturing a reference current from a plurality of reference cells; a capacitance network having a discharge that is controlled by the reference current; and an output circuit that outputs the input signal with a delay, wherein the delay is controlled by the discharge of the capacitance network. | 04-21-2011 |
| 20110164463 | Structure and Method for Decoding Read Data-Bus With Column-Steering Redundancy - A random access memory circuit enabling a decodable sense amplifier array for power saving with column steering redundancy. A first decoder receives an input address and accesses at least one memory cell in the array and is capable of executing column steering redundancy. A master redundancy signal is triggered when column steering redundancy is requested. A plurality of sense amplifiers, wherein, each sense amplifier in the plurality of sense amplifiers is coupled to at least one memory cell in an array of memory cells. A second decoder receives the input address and selectively activates a first set of sense amplifiers of the plurality of sense amplifiers and selectively activates a second set of sense amplifiers in the plurality of amplifier only when the master redundancy signal is activated. | 07-07-2011 |
